P
US9156963B2ActiveUtilityPatentIndex 82

Synergistic effects of blending multiple additives in UHMWPE

Assignee: SMITH & NEPHEW INCPriority: May 4, 2009Filed: Feb 14, 2014Granted: Oct 13, 2015
Est. expiryMay 4, 2029(~2.8 yrs left)· nominal 20-yr term from priority
Inventors:MORRISON MARK LPAWAR VIVEK DBRUNNER LORENZJANI SHILESH C
A61F 2/30767C08L 23/06A61L 27/16C08F 8/00C08J 3/28C08K 5/132C08K 5/1545C08K 5/005C08J 2323/06C08F 110/02A61F 2/38A61L 27/505C08J 3/24C08K 5/053G03G 9/097A61L 27/18C08K 5/06
82
PatentIndex Score
5
Cited by
12
References
16
Claims

Abstract

Oxidation resistant crosslinked ultrahigh molecular weight polyethylene (UHMWPE) is described, wherein at least two different additives in the manufacture synergistically increase the oxidation resistance of crosslinked UHMWPE. This allows the manufacture of oxidation resistant crosslinked UHMWPE using lower levels of additives and/or lower levels of crosslinking irradiation or chemicals. The lower levels of additives and/or crosslinking produce crosslinked UHMWPE having desired physical properties not possible without the synergistic interaction of the additives. This crosslinked UHMWPE may be used in medical prostheses such as in bearing components having desired physical properties such as wear resistance and oxidation resistance not possible without the synergistic interaction of the additives.

Claims

exact text as granted — not AI-modified
What is claimed is: 
     
       1. A process for preparing crosslinked oxidation resistant UHMWPE for use in medical prostheses comprising the steps of: (i) obtaining UHMWPE resin; (ii) crosslinking the UHMWPE, (iii) combining the UHMWPE resin with both a first amount of a first additive and a second amount of a second additive, wherein the first and the second additives are different additives; (iv) consolidating the crosslinked UHMWPE that has been combined with the first and second additives to create oxidation resistant UHMWPE, wherein the first and second additives synergistically increase the oxidation resistance of the crosslinked UHMWPE, and wherein the amount of the first additive that is combined with the UHMWPE in step (iii) is about 50 ppm to about 2,000 ppm, and wherein the amount of the second additive that is combined with the UHMWPE in step (iii) is about 50 ppm to about 2,000 ppm. 
     
     
       2. The process of  claim 1 , further comprising the step of machining the oxidation resistant UHMWPE into a bearing component for a medical prosthesis. 
     
     
       3. The process of  claim 2 , wherein the crosslink densities of the oxidation resistant and machined UHMWPE bearing component are about 0.03 mol/dm 3  to about 0.50 mol/dm 3 . 
     
     
       4. The process of  claim 1 , wherein the first additive is selected from the group consisting of phenolic antioxidants and hindered amines, and the second additive is selected from the group consisting of phosphorous additives, polyhydric alcohols, phenolic antioxidants, hindered amines, carotenoids, amino-acid-based additives, thiosynergists, and acid antioxidants. 
     
     
       5. The process of  claim 1 , wherein the crosslinking is selected from the group consisting of irradiation crosslinking and chemical crosslinking. 
     
     
       6. The process of  claim 1 , Wherein the crosslinking is irradiation crosslinking. 
     
     
       7. The process of  claim 6 , wherein the dose of the crosslinking is about 1.5 MRad to about 30 MRad. 
     
     
       8. A process for preparing crosslinked oxidation resistant UHMWPE for use in medical prostheses comprising the steps of: (i) obtaining UHMWPE resin: (ii) crosslinking the UHMWPE, (iii) combining the UHMWPE resin with both a first amount of a first additive and a second amount of a second additive, wherein the first and the second additives are different additives; (iv) consolidating the crosslinked UHMWPE that has been combined with the first and second additives to create oxidation resistant UHMWPE, wherein the first and second additives synergistically increase the oxidation resistance of the crosslinked UHMWPE, wherein the first additive is dl-alpha-tocopherol and the second additive is curcumin. 
     
     
       9. The process of  claim 8 , wherein the first additive dl-alpha-tocopherol is combined with the UHMWPE in step (iii) at about 500 ppm; the second additive curcumin is combined with the UHMWPE in step (iii) at about 500 ppm; and the crosslinking in step (ii) is by irradiation at a dose of about 10 MRad. 
     
     
       10. A process for preparing crosslinked oxidation resistant UHMWPE for use in medical prostheses comprising the steps of: (i) obtaining UHMWPE resin; (ii) crosslinking the UHMWPE, (iii) combining the UHMWPE resin with both a first amount of a first additive and a second amount of a second additive, wherein the first and the second additives are different additives; (iv) consolidating the crosslinked UHMWPE that has been combined with the first and second additives to create oxidation resistant UHMWPE, wherein the first and second additives synergistically increase the oxidation resistance of the crosslinked UHMWPE, Wherein the first additive is dl-alpha-tocopherol and the second additive is dipentaerythritol. 
     
     
       11. The process of  claim 10  wherein the first additive dl-alpha-tocopherol is combined with the UHMWPE in step (iii) at about 300 ppm; the second additive dipentaerythritol is combined with the UHMWPE in step (iii) at about 300 ppm; and the crosslinking in step (ii) is by irradiation at a dose of about 10 MRad. 
     
     
       12. A process for preparing crosslinked oxidation resistant UHMWPE for use in medical prostheses comprising the steps of: (i) obtaining UHMWPE resin; (ii) crosslinking the UHMWPE, (iii) combining the UHMWPE resin with both a first amount of a first additive and a second amount of a second additive, wherein the first and the second additives are different additives; (iv) consolidating the crosslinked UHMWPE that has been combined with the first and second additives to create oxidation resistant UHMWPE, wherein the first and second additives synergistically increase the oxidation resistance of the crosslinked UHMWPE, wherein the first additive is curcumin and the second additive is dipentaerythritol. 
     
     
       13. The process of  claim 12 , wherein the first additive curcumin is combined with the UHMWPE in step (iii) at about 300 ppm; the second additive dipentaerythritol is combined with the UHMWPE in step (iii) at about 300 ppm; and the crosslinking in step (ii) is by irradiation at a dose of about 10 MRad. 
     
     
       14. The process of  claim 1 , wherein the crosslinking is chemical crosslinking, and wherein at least one of the first additive and the second additive is added or combined simultaneously with a crosslinking agent during said crosslinking. 
     
     
       15. The process of  claim 1 , wherein said crosslinking comprises a first stage comprising mildly crosslinking the UHMWPE resin prior to said combining and consolidating, and a second stage of crosslinking after said consolidating. 
     
     
       16. A medical prosthesis comprising a bearing component comprising crosslinked UHMWPE made by the process of  claim 1 .

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